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Book Cover
Author Velmurugan, R

Title Composite Materials High Strain Rate Studies
Published Milton : Taylor & Francis Group, 2023


Description 1 online resource (364 p.)
Contents Cover -- Half Title -- Title Page -- Copyright Page -- Table of Contents -- Preface -- Acknowledgments -- About the Editors -- Contributors -- Introduction -- Chapter 1 Strain Rate Studies on Metallic and Non-Metallic Materials for Tensile and Compressive Behaviour Under Impact Loading: A Review -- Chapter 2 Mechanical Properties of 3D Printed Materials at High Strain Rates -- Chapter 3 Strain Rate Studies of Polymer and Fibre-Reinforced Polymer Nanocomposites -- Chapter 4 High Strain Rate Testing Using Drop Mass Tower and Non-Contact Strain Measurement Techniques
Chapter 5 Effect of High Strain Rate on the Tensile Behaviour of 3D Printed ABS Polymer -- Chapter 6 Effects of Different Strain Rates on the Tensile Properties of Bi-Directional Glass/Epoxy, Carbon/Epoxy and Interply Hybrid Composites Using DIC -- Chapter 7 Rate-Dependent Cohesive Zone Modelling for Polyurea-Steel Interface -- Chapter 8 A Study on the Dynamic Behaviour of Multilayered Aluminium Alloy A5083 Due to Loading at High Strain Rates -- Chapter 9 High Strain Rate Tensile Testing of High-Strength Steel Using Split Hopkinson Pressure Bar
Chapter 10 High Strain Rate Testing of Automotive Sheet Steel with Evaluation of a Double-Cell Crash Box -- Chapter 11 Role of Notch Location and Loading Rate on Tensile Strength of Glass/Epoxy Composites -- Chapter 12 Impact Analysis of Concrete Structure Using a Rate-Dependent Damage Model -- Chapter 13 A Novel Pulse-Shaping Technique to Forecast the Behavior of Brittle Material Using Split Hopkinson Pressure Bar -- Chapter 14 Experimental Investigation of Dynamic Behaviour of Ceramic Material and the Effectiveness of Pulse Shapers
Chapter 15 Optimizing Pulse Shaper Dimensions for Testing Rocks in Split Hopkinson Pressure Bar -- Chapter 16 Dynamic Strength Enhancement of Concrete in Split Hopkinson Pressure Bar Test -- Chapter 17 Static and Dynamic Strength and Failure in Fiber-Reinforced Ultra-High-Performance Concrete -- Chapter 18 Dynamic Characterization of Goat Tibia -- Chapter 19 FE Study on the Effect of Angle of Impact on the Performance of Aluminium Plate against an Ogive Projectile
Chapter 20 Ballistic Performance of Oblique Impact on Monolithic and Layered in-Contact Metallic Targets against Ogival-Shaped Projectiles -- Chapter 21 Parametric Study on Ballistic Impact Response of Ceramic-Composite Armour -- Chapter 22 A Numerical Investigation on UHMWPE Composite Panel Subjected to Ballistic Impact with Lead Core Projectiles -- Chapter 23 High-Velocity Impact Response of Titanium/Composite Laminates: An Analytical Modeling -- Chapter 24 Transient Dynamic Response of Clay Brick Masonry Walls of Varying Aspect Ratios against Low-Velocity Impact Load
Summary Summarizing recent advances in high strain rate testing, this book discusses techniques for designing, executing, analyzing, and interpreting the results of experiments involving dynamic behavior of multifunctional materials. Analytical and numerical modeling of materials under varied conditions are discussed
Notes Description based upon print version of record
Chapter 25 A 3D Shear Deformation Theory for the Dynamic Response of 3D Braided Composite Shells under Low-Velocity Impact
Subject Composite materials -- Testing -- Case studies
Strains and stresses -- Case studies
Composite materials -- Testing.
Strains and stresses.
Genre/Form Case studies.
Form Electronic book
Author Ruan, Dong
Gurusideswar, S
ISBN 9781003803744